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Line 16: The basic process by which imaging particle analysis is carried out is as follows: # A digital camera captures an image of the [[field of view]] in the optical system. # A gray scale [[Thresholding (image processing)\|thresholding]] process is used to perform [[Image segmentation#Thresholding\|image segmentation]], segregating out the particles from the background, creating a [[binary image]] of each particle.<ref name=Gonzalez>{{cite book\|last=Gonzalez\|first=Rafael C.\|title=Digital Image Processing\|year=2002\|publisher=Pearson Education\|isbn=8178086298\|pages=595–611\|~~coauthors~~author2=Woods, Richard E.}}</ref><ref name="Sankur2004">{{cite journal\|last1=Sankur\|first1=Bulent\|title=Survey over image thresholding techniques and quantitative performance evaluation\|journal=Journal of Electronic Imaging\|volume=13\|issue=1\|year=2004\|pages=146\|issn=1017-9909\|doi=10.1117/1.1631315}}</ref><ref>{{cite journal\|title=A Threshold Selection Method from Gray-Level Histograms\|journal=IEEE Transactions on Systems, Man, and Cybernetics\|volume=9\|issue=1\|year=1979\|pages=62–66\|issn=0018-9472\|doi=10.1109/TSMC.1979.4310076}}</ref> # [[Digital image processing]] techniques are used to perform [[image analysis]] operations, resulting in morphological and grey-scale measurements to be stored for each particle.<ref name="CarterYan2005">{{cite journal\|last1=Carter\|first1=R M\|last2=Yan\|first2=Y\|title=Measurement of particle shape using digital imaging techniques\|journal=Journal of Physics: Conference Series\|volume=15\|year=2005\|pages=177–182\|issn=1742-6588\|doi=10.1088/1742-6596/15/1/030}}</ref> # The measurements saved for each particle are then used to generate image population statistics,<ref>{{cite web\|last=Pouli\|first=T.\|title=Image Statistics and their Applications in Computer Graphics (2010)\|url=http://www.cs.bris.ac.uk/~reinhard/papers/eg2010_tania.pdf\|publisher=Eurographics, State of the Art\|accessdate=2 January 2014\|coauthors=Cunningham, D, Reinhard, E.}}</ref> or as inputs to algorithms for filtering and sorting the particles into groups of similar types. In some systems, sophisticated [[pattern recognition]] techniques<ref name="Rosenfeld1981">{{cite journal\|last1=Rosenfeld\|first1=A.\|title=Image pattern recognition\|journal=Proceedings of the IEEE\|volume=69\|issue=5\|year=1981\|pages=596–605\|issn=0018-9219\|doi=10.1109/PROC.1981.12027}}</ref><ref>{{cite book\|last=Young\|first=T. Y.\|title=Handbook of Pattern Recognition and Image Processing\|year=1986\|publisher=Academic Press\|isbn=0127745602}}</ref> may also be employed in order to separate different particle types contained in a heterogeneous sample.

Imaging particle analysis: Difference between revisions